video-dubbing

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video-dubbing / app.py

artificialguybr

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	import tempfile
	import gradio as gr
	import subprocess
	import os, stat
	import uuid
	from googletrans import Translator
	from TTS.api import TTS
	import ffmpeg
	from faster_whisper import WhisperModel
	from scipy.signal import wiener
	import soundfile as sf
	from pydub import AudioSegment
	import numpy as np
	import librosa
	from zipfile import ZipFile
	import shlex
	import cv2
	import torch
	import torchvision
	from tqdm import tqdm
	from numba import jit
	import threading
	import time
	import GPUtil

	os.environ["COQUI_TOS_AGREED"] = "1"

	ZipFile("ffmpeg.zip").extractall()
	st = os.stat('ffmpeg')
	os.chmod('ffmpeg', st.st_mode \| stat.S_IEXEC)

	# Initialize peak usage variables
	peak_gpu_usage = 0.0
	peak_vram_usage = 0.0

	# Monitoring function
	def monitor_gpu_usage():
	global peak_gpu_usage, peak_vram_usage
	while True:
	gpus = GPUtil.getGPUs()
	for gpu in gpus:
	peak_gpu_usage = max(peak_gpu_usage, gpu.load)
	peak_vram_usage = max(peak_vram_usage, gpu.memoryUsed)
	time.sleep(1) # Check every second

	# Start the monitoring thread
	monitor_thread = threading.Thread(target=monitor_gpu_usage)
	monitor_thread.daemon = True
	monitor_thread.start()

	#Whisper
	model_size = "small"
	model = WhisperModel(model_size, device="cuda", compute_type="int8")

	def process_video(radio, video, target_language):
	# Check video duration
	video_info = ffmpeg.probe(video)
	video_duration = float(video_info['streams'][0]['duration'])
	if video_duration > 90:
	return gr.Interface.Warnings("Video duration exceeds 1 minute and 30 seconds. Please upload a shorter video.")

	run_uuid = uuid.uuid4().hex[:6]

	output_filename = f"{run_uuid}_resized_video.mp4"
	ffmpeg.input(video).output(output_filename, vf='scale=-1:720:force_original_aspect_ratio=decrease').run()
	#ffmpeg.input(video).output(output_filename, vf='scale=-2:720').run()

	video_path = output_filename

	#Time tracking
	start_time = time.time()
	if not os.path.exists(video_path):
	return f"Error: {video_path} does not exist."

	ffmpeg.input(video_path).output(f"{run_uuid}_output_audio.wav", acodec='pcm_s24le', ar=48000, map='a').run()

	#y, sr = sf.read(f"{run_uuid}_output_audio.wav")
	#y = y.astype(np.float32)
	#y_denoised = wiener(y)
	#sf.write(f"{run_uuid}_output_audio_denoised.wav", y_denoised, sr)

	#sound = AudioSegment.from_file(f"{run_uuid}_output_audio_denoised.wav", format="wav")
	#sound = sound.apply_gain(0)
	#sound = sound.low_pass_filter(3000).high_pass_filter(100)
	#sound.export(f"{run_uuid}_output_audio_processed.wav", format="wav")

	shell_command = f"ffmpeg -y -i {run_uuid}_output_audio.wav -af lowpass=3000,highpass=100 {run_uuid}_output_audio_final.wav".split(" ")
	subprocess.run([item for item in shell_command], capture_output=False, text=True, check=True)

	segments, info = model.transcribe(f"{run_uuid}_output_audio_final.wav", beam_size=5)
	whisper_text = " ".join(segment.text for segment in segments)
	whisper_language = info.language
	print(whisper_text)

	language_mapping = {'English': 'en', 'Spanish': 'es', 'French': 'fr', 'German': 'de', 'Italian': 'it', 'Portuguese': 'pt', 'Polish': 'pl', 'Turkish': 'tr', 'Russian': 'ru', 'Dutch': 'nl', 'Czech': 'cs', 'Arabic': 'ar', 'Chinese (Simplified)': 'zh-cn'}
	target_language_code = language_mapping[target_language]
	translator = Translator()
	try:
	translated_text = translator.translate(whisper_text, src=whisper_language, dest=target_language_code).text
	print(translated_text)
	except AttributeError as e:
	print("Failed to translate text. Likely an issue with token extraction in the Google Translate API.")
	translated_text = "Translation failed due to API issue."

	tts = TTS("tts_models/multilingual/multi-dataset/xtts_v1")
	tts.to('cuda')
	tts.tts_to_file(translated_text, speaker_wav=f"{run_uuid}_output_audio_final.wav", file_path=f"{run_uuid}_output_synth.wav", language=target_language_code)

	pad_top = 0
	pad_bottom = 15
	pad_left = 0
	pad_right = 0
	rescaleFactor = 1

	video_path_fix = video_path

	cmd = f"python Wav2Lip/inference.py --checkpoint_path 'Wav2Lip/checkpoints/wav2lip_gan.pth' --face {shlex.quote(video_path_fix)} --audio '{run_uuid}_output_synth.wav' --pads {pad_top} {pad_bottom} {pad_left} {pad_right} --resize_factor {rescaleFactor} --nosmooth --outfile '{run_uuid}_output_video.mp4'"
	subprocess.run(cmd, shell=True)

	if not os.path.exists(f"{run_uuid}_output_video.mp4"):
	raise FileNotFoundError(f"Error: {run_uuid}_output_video.mp4 was not generated.")

	output_video_path = f"{run_uuid}_output_video.mp4"

	# Cleanup: Delete all generated files except the final output video
	files_to_delete = [
	f"{run_uuid}_resized_video.mp4",
	f"{run_uuid}_output_audio.wav",
	f"{run_uuid}_output_audio_denoised.wav",
	f"{run_uuid}_output_audio_processed.wav",
	f"{run_uuid}_output_audio_final.wav",
	f"{run_uuid}_output_synth.wav"
	]

	for file in files_to_delete:
	try:
	os.remove(file)
	except FileNotFoundError:
	print(f"File {file} not found for deletion.")

	# Stop the timer
	end_time = time.time()

	# Calculate and print the time taken
	time_taken = end_time - start_time
	print(f"Time taken to process video: {time_taken:.2f} seconds")

	# Display peak usages at the end
	print(f"Peak GPU usage: {peak_gpu_usage * 100}%")
	print(f"Peak VRAM usage: {peak_vram_usage}MB")

	return output_video_path


	def swap(radio):
	if(radio == "Upload"):
	return gr.update(source="upload")
	else:
	return gr.update(source="webcam")

	video = gr.Video()
	radio = gr.Radio(["Upload", "Record"], show_label=False)
	iface = gr.Interface(
	fn=process_video,
	inputs=[
	radio,
	video,
	gr.Dropdown(choices=["English", "Spanish", "French", "German", "Italian", "Portuguese", "Polish", "Turkish", "Russian", "Dutch", "Czech", "Arabic", "Chinese (Simplified)"], label="Target Language for Dubbing")
	],
	outputs=gr.Video(),
	live=False,
	title="AI Video Dubbing",
	description="""This tool was developed by [@artificialguybr](https://twitter.com/artificialguybr) using entirely open-source tools. Special thanks to Hugging Face for the GPU support. Thanks [@yeswondwer](https://twitter.com/@yeswondwerr) for original code.

	Note:
	- Video limit is 1 minute.
	- Generation may take up to 5 minutes.
	- The tool uses open-source models for all operations.
	- Quality can be improved but would require more processing time per video.""",
	allow_flagging=False
	)
	with gr.Blocks() as demo:
	iface.render()
	radio.change(swap, inputs=[radio], outputs=video)
	demo.queue(concurrency_count=2, max_size=15)
	demo.launch()